Polymeric dithiocarbamate acid salt compositions and method of use

ABSTRACT

A contaminant precipitating composition and method are disclosed. The composition comprises a water soluble, branched, polydithiocarbamic acid salt effective for the purpose of precipitating contaminants from an aqueous solution. The method comprises adding an amount of the composition effective for the purpose to the aqueous solution so as to complex, precipitate and remove contaminants from the aqueous solution.

This is a divisional of application Ser. No. 08/390,341 filed Feb. 2, 1995 now U.S. Pat. No. 5,500,133.

FIELD OF THE INVENTION

The present invention relates to multipurpose, water soluble, polydithiocarbamic acid salts. More particularly, the present invention relates to the use of branched, water soluble polydithiocarbamic acid salts to precipitate contaminants from aqueous solutions.

BACKGROUND OF THE INVENTION

Industry has come under strict regulations to limit the level of contaminants in discharged wastewater as a result of problems caused by the contamination of waterways. Particularly restrictive discharge regulations have been adopted for contaminants harmful to humans and aquatic organisms such as heavy metals; for example, copper, lead, zinc, cadmium and nickel, and certain non-metals such as arsenic and selenium. Consequently, a number of processes have been proposed to reduce the heavy metal content of wastewater to meet increasingly stringent discharge limits.

One common practice is to precipitate the bulk of the heavy metal contaminant as its metal hydroxide. Metal ions such as Cu and Pb are easily precipitated in this way, but the minimum concentration that can be obtained is limited by the finite solubility of the hydroxide complexes. The resulting effluent from the hydroxide precipitation may be treated with a metal scavenging agent to remove any trace metal contaminants to meet discharge regulations. These agents may be precipitants, adsorbents, or metal specific ion exchange resins. The metal scavenger precipitants may also be effective when added in the same step as the hydroxide precipitation. Typical compounds utilized as precipitating scavenging agents include sulfides, (thio)carbonates, alkyl dithiocarbamates, mercaptans, and modified natural products.

Non-metals such as selenium and arsenic are not easily precipitated with hydroxide. These ions are typically co-precipitated with metal salts such as ferric sulfate. Traditional precipitant metal scavenging agents are usually ineffective in removing these ions.

The known metal scavenging agents have other limitations. The metal thiocarbonates, sulfides, mercaptans, and thiocarbamates form a fine floc which is not conducive to settling and typically require the use of a flocculation agent and/or filtration to achieve efficient removal. Known polydithiocarbamates are characterized as having limited water solubility, which limits the degree of functionalization possible. In addition, a number of the scavenging agents are themselves very toxic and care must be taken to ensure that they are not present in the discharged wastewater.

Therefore a need exists for a less toxic metal scavenging agent that forms larger, faster settling floc than the known compounds. It is also desirable that this material be water soluble so it can be utilized in existing clarification facilities, avoiding the need for capital investment in resin-bed apparati or other specialized equipment.

Accordingly, it is an object of this invention to provide a branched water soluble polymeric composition for precipitating contaminants from aqueous solutions and a method for using the composition.

PRIOR ART

The preparation of dithiocarbamic acids by the reaction of carbon disulfide with amines is well documented. For example, U.S. Pat. Nos. 2,609,389 and 2,693,485 disclose the reaction products of lower alkylene diamines with carbon disulfide to yield the corresponding dithiocarbamic acids or their salts. In some of the literature these products are referred to as polydithiocarbamates because each molecule contains more than one dithiocarbamate functionality. For the purpose of our invention, however, a polydithiocarbamate is defined as having at least ten distinct monomer units containing a dithiocarbamate functionality (i.e., the sum of n of Formula I is ≧10).

U.S. Pat. Nos. 4,855,060, 5,006,274 and 5,152,927 disclose the use of di- and trifunctional dithiocarbamate compounds as water clarification agents.

Monofunctional sodium dialkyldithiocarbamates are marketed by ALCO Chemical Corporation (AQUAMET®E, AQUAMET®M) and Vinings Industries, Inc. (VINMET®1140) as heavy metal precipitants for waste-water treatment applications.

U.S. Pat. Nos. 4,689,177, 4,826,625, 4,864,075, 4,956,099, 5,013,451, 5,019,274, 5,026,483, 5,089,227 and 5,089,619 disclose the use of mainly di- and trifunctional dithiocarbamates as demulsifiers, clarification agents, biocides, corrosion and scale inhibitors, and flocculants in wastewater treatment applications. The preparation of the pentafunctional dithiocarbamate derivative of tetraethylenepentamine (TEPA) is also disclosed.

U.S. Pat. Nos. 4,670,160 and 4,670,180 disclose the functionalization of reaction products of polyamines and epichlorohydrin with carbon disulfide to yield carbamates containing metal scavenger compounds. Combined use of the metal scavenging compound with at least one sodium monosulfide, sodium polysulfide and sodium hydrogen sulfide resulted in a synergistic effect in the precipitation of heavy metals from a wastewater. Both patents disclose that the metal scavenger of the invention has a linear structure and generally shows water-solubility when the polyamine polycondensed with the epihalohydrin is a diamine with two amino groups. The patents also disclose that when the metal scavenger has a crosslinked structure, it forms either dispersion or suspension upon its mixing with water.

U.S. Pat. No. 4,731,187 discloses a synergistic combination of a metal scavenging compound with at least one sodium monosulfide, sodium polysulfide and sodium hydrogen sulfide for use in the precipitation of heavy metals from a wastewater. The patent also discloses that the metal scavenger can be prepared by functionalization of polyethyleneimine with carbon disulfide to yield a polymeric dithiocarbamate. In each case the resulting polydithiocarbamate was water insoluble.

U.S. Pat. No. 5, 164,095 discloses the functionalization of ethylene dichloride/ammonia polymers with carbon disulfide to yield water soluble polydithiocarbamates effective as heavy metal precipitants in treating wastewater. The patent also discloses that as the molecular weight of the polyamine increases, the amount of carbon disulfide which can be reacted to form a water soluble product decreases. The upper molecular weight is limited to 100,000, and the degree of functionalization is limited to 5 to 50 mole percent carbon disulfide.

SUMMARY OF THE INVENTION

The present invention is a composition and method of using the composition to precipitate contaminants from an aqueous solution. The composition is a water soluble branched polydithiocarbamic acid salt having the formula: ##STR1## wherein R¹ is independently an organic radical or ##STR2## wherein R⁴ is independently an organic radical and x=1 to 5; R² is independently --H or --CS₂ R⁵ ; R⁵ is independently H or a cation; R³ is N or a substituted organic radical; Z is independently N--R², O or S; the sum of n is an integer greater than 10; and m is an integer greater than 2.

The method of using the composition to precipitate contaminants from an aqueous solution comprises adding to the aqueous solution an amount effective for the purpose of a complexing composition. The complexing composition, comprising the water soluble branched polydithiocarbamic acid salt, complexes with the contaminants in the aqueous solutions and precipitates out of the solution thereby removing contaminants from the aqueous solution.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are incorporated in and form a part of the specification, illustrate the embodiments of the present invention and, together with description, serve to explain the principles of the invention. In the drawings:

FIG. 1 is a plot of copper concentration versus dosage of metal complexing agent in cooling tower blowdown water; and

FIG. 2 is a plot of zinc concentration versus dosage of metal complexing agent in cooling tower blowdown water.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The present invention provides water soluble compositions and a method for using the compositions for precipitating contaminants from aqueous solutions.

The branched water soluble compositions of this invention are formed by first reaction of epihalohydrin with a mixture of primarily an amine compound consisting of at least two primary amine functional groups such as ethylenediamine, and an amine compound consisting of three primary amine functional groups such as tris(2-aminoethyl)amine, then functionalization with carbon disulfide. The general structure of the resulting polydithiocarbamic acid salts are represented by the following formula: ##STR3## wherein R¹ independently represents an organic radical which may be the same or different for each representation of R¹, or: ##STR4## wherein R⁴ independently represents an organic radical which may be the same or different for each representation of R⁴ and x=1 to 5; R² independently represents --H or --CS₂ R⁵ which may be the same or different for each representation of R² and R⁵ each independently represents H or a cation which may be the same or different for each representation of R⁵ ; R³ represents N or a substituted organic radical; Z represents N--R², O, or S which may be the same or different for each representation of Z; the sum of n is an integer greater than 10; and m is an integer greater than 2.

In a preferred embodiment of the invention, R¹ is an ethylene radical, the sum of n is greater than 10, m=3, R³ =N, >50% of R² are --CS₂ R⁵, R⁵ is an alkali metal and Z is N--R².

In a particularly preferred embodiment of the invention, R¹ is an ethylene radical, the sum of n is greater than 25, m=3, R³ =N, >50% of R² are --CS₂ R⁵, R⁵ is an alkali metal and Z is N--R².

In another particularly preferred embodiment of the invention, R¹ is an ethylene radical, the sum of n is greater than 25, m=3, R³ =N, >79% of R² are --CS₂ R⁵, R⁵ is an alkali metal and Z is N--R².

The water soluble compounds of the present invention can be prepared by reacting a polyamine, consisting of mainly secondary amine functionality, with carbon disulfide in an aqueous solution. The polyamine of this invention generally has a branched structure as a result of addition of crosslinking compounds during its manufacturing.

In a preferred embodiment of the invention, aqueous solutions of the present invention are prepared by first reacting a mixture of primarily an amine compound consisting of at least two primary amine functional groups, and an amine compound consisting of three primary amine functional groups, with an epihalohydrin to yield a branched water soluble polyamine consisting of mainly secondary amine functionality. The synthesis is conducted by methods known to those skilled in the art to prevent gelation of the polyamine compound. For a general review of methods to control the molecular weight and branching of the polymeric compounds, see Allcock et al., "Contemporary Polymer Chemistry", Chapter 11, Prentice-Hall, Inc., N.J., 1981. Compounds suitable for preparing the polyamine compositions of the present invention are well known to those skilled in the art. Representative compounds consisting of at least two primary amine functional groups include, but are not limited to, ethylenediamine (EDA), propylenediamine, diethylenetriamine (DETA), tripropyl-enetetramine, 1,3-diamino-2-hydroxypropane, bis(hexamethylenetriamine) (BHMT), Jeffamine® polyoxyalkyleneamines commercially available from Texaco, triethylenetetramine (TETA), tetraethylenepentamine (TEPA), and polyethyleneimine. Representative crosslinking compounds consisting of at least three primary amine functional groups include, but are not limited to, melamine or tris(2-aminoethyl)amine (TREN). It is also considered part of this invention that non-amine compounds such as, but not limited to, glycerol, pyrogallol, and pentaerythritol can also be utilized as the branching agent.

The polyamine synthesis is typically conducted under atmospheric conditions initially at about 30° C. to 70° C. utilizing a substoichiometric amount of epihalohydrin as determined by the method of Allcock et al. The mixture is then heated to about 70° C. to 100° C. and additional epihalohydrin is charged until the desired molecular weight is achieved, typically determined by monitoring the viscosity of the system. The polyamine product is then reacted with carbon disulfide to produce dithiocarbamic acid salts.

Methods for the reaction of amines with carbon disulfide to prepare dithiocarbamic acid salts are well known and are detailed in U.S. Pat. Nos. 2,609,389; 2,693,485 and 5,013,451.

The molecular weight of the polydithiocarbamic acid salt may be less than the initial starting polyamine precursor due to side reactions such, as Hoffman-type elimination. This degradation is acceptable as long as n in Formula 1 of resulting product is greater than ten repeat units. The reaction conditions utilized for the dithiocarbonylation of the polyamine precursor can also be modified by methods known to those skilled in the art to minimize degradation of the polymer.

It will be appreciated that by-products (for example inorganic salts) are coproduced along with the compounds of the present invention in the course of the above reaction scheme. The desired reaction product can be readily separated from the reaction by-products by known methods. However, it is feasible and economical to employ the present compounds as produced without separation or purification.

The compounds of the present invention can be added to an aqueous system for which precipitation of metal contaminants such as transition metals, post-transition metals, lanthanides, actinides, and non-metal contaminants such as arsenic, selenium, and tellurium is desired, in an amount effective for the purpose. This amount will vary depending on the particular system for which treatment is desired and will be influenced mainly by the metal content of the water and the presence of other ligand and chelant molecules. Treatment levels of composition in an aqueous solution can be from about 0.1 parts per million (ppm) to about 10,000 ppm, preferably from about 0.1 ppm to about 1,000 ppm and most preferably from about 0.1 ppm to about 500 ppm. The metal polymer complexes formed are self flocculating, quick settling, and separated from the aqueous solution. Anticipated uses of the invention compositions include but are not limited to contaminant removal from incinerator scrubber water, cooling tower blowdown and wastewaters resulting from mining, metal finishing and other industrial operations. The compositions of the present invention are also expected to exhibit water clarification activity in aqueous systems which contain an oil-in-water emulsion.

The invention will now be further described with reference to a number of specific examples which are to be regarded solely as illustrative and not restricting the scope of the present invention.

EXAMPLE 1

A suitable reactor vessel was equipped with a mechanical stirrer, thermometer, condenser, nitrogen sparge, caustic scrubber, and addition ports. Ethylenediamine (EDA, 99%, 54.64 g, 0.90 mole), tris(aminoethyl) amine (TREN, 97%, 15.08 g, 0.10 mole), and 103 ml of deionized water were charged to the vessel and sparged with nitrogen. The batch temperature was adjusted to 40° C., then epichlorohydrin (ECH, 99%, 100.75 g, 1.078 mole) was charged dropwise over a 3 hour period. After addition, the batch was held at 40° C. for 3 hours, then was allowed to sit overnight without heating or mixing. The batch was then heated to 90° C. and an additional amount of ECH (99%, 11.32 g, 0.12 mole) was charged shotwise in 11 equal portions over an approximately 6.5 hour period with mixing. Aqueous sodium hydroxide (50%, 71.56 g, 0.896 mole) was added to the batch at two hours into the ECH shot procedure. After completion of the ECH shots, the batch was held for 0.5 hours at 90° C., then was allowed to mix overnight without heating. The next day aqueous sodium hydroxide (50%, 24.28 g, 0.304 mole) and 72 ml of deionized water were charged to the batch with mixing at a batch temperature below 30° C. The resulting viscous, clear, yellow-tinted liquid was adjusted to 453.17 g with deionized water to yield a 30% by weight solution of terpoly[DETNTREN/ECH] as the free base. The viscosity of the solution, referred to as Terpolymer I, was 666 cps (centipoise) at 25° C.

Two additional terpoly[DETA/TREN/ECH] samples were prepared in a similar fashion. A summary of the polyamine compounds is shown in Table I.

                  TABLE I     ______________________________________     Terpoly[EDA/TREN/ECH] Sample Summary                                 %     Example  EDA:TREN.sup.1                        % Solids Actives.sup.2                                        pH.sup.3                                             Viscosity.sup.4     ______________________________________     Terpolymer 1              9:1       45.0     30.0   13.99                                               666 cps     Terpolymer 2              9:1       38.7     26.0   12.94                                             1,790 cps     Terpolymer 3              19:1      40.9     26.0   12.75                                             3,592 cps     ______________________________________      .sup.1 Mole ratio EDA:TREN      .sup.2 As the free base polymer      .sup.3 pH 10.0 buffer, at 25° C.      .sup.4 Measured at 25° C.

EXAMPLE 2

To a reactor set-up similar to that described in Example I was charged Terpolymer I (125.76 g). The polymer solution, sparged with N₂, was cooled with an ice water bath, then aqueous sodium hydroxide (50%, 20 g, 0.25 mole) was charged to the vessel. The N₂ sparge was then switched to a nitrogen blanket and carbon disulfide (19.04 g, 0.25 mole) was charged dropwise over a 15 minute period with ice water cooling. After addition, the batch was mixed 1 hour with cooling, then was allowed to gradually warm to room temperature. Any residual carbon disulfide was then removed from the product by sparging with nitrogen. The resulting solution was adjusted to 249.06 g with deionized water to yield a 25% by weight actives product. The viscosity of the solution, referred to as Composition 2, was 44.6 centipoise (cps) at 25° C.

The polymers of Example 1 were functionalized with various amounts of carbon disulfide in a similar manner. A summary of the compounds prepared for testing is shown in Table II.

                  TABLE II     ______________________________________     Polymeric Dithiocarbamic Acid Salt Summary     Composition         Mole %  %             Sum     Number  Terpolymer  CS.sub.2.sup.1                                 Actives.sup.2                                        Viscosity.sup.3                                               of n.sup.4     ______________________________________     Composition 1              Terpolymer 1                         80      25     18.0   173     Composition 2              Terpolymer 1                         50      25     44.6   483     Composition 3              Terpolymer 2                         80      25     36.5   *     Composition 4              Terpolymer 2                         50      25     85.7   *     Composition 5              Terpolymer 3                         80      25     49.0   *     Composition 6              Terpolymer 3                         50      25     119.6  *     ______________________________________      .sup.1 Mole % CS.sub.2 charged relative to the theoretical moles of      reactive secondary amines. Secondary amines equivalent to twice the amoun      of ECH in excess of the moles of amines charged, and tertiary amines were      not considered reactive.      .sup.2 Excludes solids associated with byproduct salt (i.e., NACl)      formation.      .sup.3 Centipoise measured at 25° C.      .sup.4 Sum of n as determined by Low Angle Laser Light Scattering (LALLS)      analysis.      *Not determined.

EXAMPLE 3

Two synthetic wastewaters described in Table III were treated with varying dosages of the compositions set forth in Table II. These tests were conducted referenced to sodium dimethyldithiocarbamate (DMDTC), commercially available from Vinings Industries under the tradename VINMET®1140, and from ALCO Chemical Corporation under the trade name AQUAMET®M, and a blend of polymeric dithiocarbamate, sodium hydrosulfide, sodium chloride, and disodium ethylenebis (dithiocarbamate), marketed by CYTEC Industries, E-2863. The dosages of the compositions, in units of parts per million of actives, were each added to a 200 ml aliquot of the synthetic wastewater (pH=9.0) while mixing at 100 revolutions per minute (rpm). The combinations were then mixed for 2 minutes at 100 rpm and 5 minutes at 35 rpm. During the fast mixing stage (100 rpm) small floc were formed as the metal-polymer complexes formed. During the slow mixing stage (35 rpm) the floc grew in size. When the contents of the jars were allowed to settle for 5 minutes, the large heavy floc rapidly settled out of solution. The supernatant was then withdrawn from the mixture, one half of which was filtered through a 5 micron filter. Both the filtered and unfiltered samples were then digested with 5% HCl at 90°-95° C. for four hours before analysis for metal content using inductively coupled plasma atomic emission spectroscopy (ICP-AES). The untreated wastewater was also analyzed by ICP-AES for reference. The untreated synthetic wastewater analysis is shown in Table III.

The supernatant metal analyses for the filtered and unfiltered results are shown in Tables IVA and IVB.

                  TABLE III     ______________________________________     Synthetic Wastewater Analysis                    Untreated                             Untreated                    Sample 1 Sample 2     Sample 1       (ppm)    (ppm)     ______________________________________     Al             1.90     2.10     Sb             2.50     <0.05000     As             1.76     2.00     Cd             1.77     1.70     Ca, AsCaCO.sub.3                    5.25     0.06000     Cr, AsCrO.sub.4                    3.99     4.30     Co             1.77     2.00     Cu             1.84     2.02     Fe             2.08     <0.00300     Pb             1.90     2.10     Mg, AsCaCO.sub.3                    7.59     7.91     Mn             1.86     <0.00100     Mo, AsMoO.sub.4                    3.56     3.40     Ni             1.80     2.10     Se             1.91     2.00     Ag             0.430    0.450     Sr             1.87     2.01     Ti             1.84     2.02     V              1.81     2.02     Zn             1.89     2.07     Zr             1.82     Tl                      2.00     ______________________________________

                  TABLE IVA     ______________________________________     Synthetic Wastewater - Unfiltered Supernatant Analysis            2 ppm     20 ppm      100 ppm     ______________________________________              DMDTC       DMDTC       DMDTC     ______________________________________     Sample 1     Al       1.60        0.500       0.900     Sb       2.30        1.00        2.00     As       1.44        0.266       0.571     Cd       1.41        0.150       0.310     Ca, AsCaCO.sub.3              5.16        4.51        4.32     Cr, AsCrO.sub.4              3.18        0.330       1.10     Co       1.49        0.370       0.160     Cu       1.49        0.190       0.400     Fe       1.66        0.160       0.550     Pb       1.50        0.200       0.500     Mg, AsCaCO.sub.3              7.41        6.92        6.59     Mn       1.66        0.780       0.890     Mo, AsMoO.sub.4              3.43        2.98        3.08     Ni       1.50        0.300       0.450     Se       1.69        1.10        0.259     Ag       0.330       0.04000     0.08000     Sr       1.79        1.53        1.46     Ti       1.48        0.120       0.440     V        1.52        0.510       0.780     Zn       1.50        0.230       0.700     Zr       1.52        0.440       0.710     ______________________________________              Composition 1                          Composition 1                                      Composition 1     ______________________________________     Al       0.600       0.300       1.70     Sb       2.00        1.00        2.40     As       0.535       0.266       1.61     Cd       0.490       0.120       1.62     Ca, AsCaCO.sub.3              4.44        4.06        4.62     Cr, AsCrO.sub.4              0.030       0.220       3.47     Co       0.620       0.150       0.660     Cu       0.680       0.140       0.890     Fe       0.490       0.110       1.86     Pb       0.580       0.200       1.70     Mg, AsCaCO.sub.3              7.15        6.85        7.03     Mn       1.09        0.560       1.65     Mo, AsMoO.sub.4              3.07        2.93        3.22     Ni       0.670       0.200       1.60     Se       1.30        1.18        0.06000     Ag       0.200       0.03000     <0.00500     Sr       1.67        1.52        1.72     Ti       0.430       0.100       1.67     V        0.680       0.440       1.62     Zn       0.500       0.160       1.71     Zr       0.660       0.390       1.64     ______________________________________              Composition 2                          Composition 2                                      Composition 2     ______________________________________     Al       0.800       0.400       1.00     Sb       2.00        1.00        2.00     As       0.761       0.340       0.811     Cd       0.730       0.210       0.700     Ca, AsCaCO.sub.3              4.51        4.26        3.68     Cr, AsCrO.sub.4              1.50        0.410       1.50     Co       0.810       0.260       0.380     Cu       0.890       0.240       0.650     Fe       0.770       0.220       0.790     Pb       0.790       0.300       0.740     Mg, AsCaCO.sub.3              7.23        7.06        6.26     Mn       1.22        0.650       1.02     Mo, AsMoO.sub.4              3.12        3.01        2.97     Ni       0.860       0.340       0.800     Se       1.40        1.21        0.189     Ag       0.220       0.06000     0.01000     Sr       1.70        1.58        1.39     Ti       0.680       0.190       0.670     V        0.880       0.500       0.960     Zn       0.740       0.250       0.850     Zr       0.850       0.390       0.850     ______________________________________              Composition 3                          Composition 3                                      Composition 3     ______________________________________     Sample 2     Al       1.00        0.800       1.20     Sb       <0.05000    <0.05000    <0.05000     As       0.700       0.400       1.00     Cd       0.360       0.100       0.600     Ca, AsCaCO.sub.3              0.140       0.05000     0.06000     Cr, AsCrO.sub.4              0.880       0.210       1.50     Co       0.430       0.120       0.530     Cu       0.770       0.490       0.830     Fe       0.01000     <0.00300    0.00400     Pb       0.420       0.09000     0.730     Mg, AsCaCO.sub.3              7.06        6.45        6.22     Mn       <0.00100    <0.00100    <0.00100     Mo, AsMoO.sub.4              2.61        2.38        2.89     Ni       0.460       0.200       0.790     Se       1.00        1.00        1.00     Ag       0.240       0.003000    0.01000     Sr       1.71        1.53        1.42     Ti       0.420       0.100       0.700     V        0.620       0.370       1.11     Zn       0.480       0.170       0.840     Tl       2.00        1.00        2.00     ______________________________________              Composition 4                          Composition 4                                      Composition 4     ______________________________________     Al       1.90        0.800       1.10     Sb       <0.05000    <0.05000    <0.05000     As       2.00        0.500       0.900     Cd       1.36        0.190       0.490     Ca, AsCaCO.sub.3              0.09000     0.07000     0.330     Cr, AsCrO.sub.4              3.42        0.480       1.20     Co       1.60        0.230       0.510     Cu       1.70        0.510       0.590     Fe       <0.00300    <0.00300    0.01000     Pb       1.70        0.200       0.590     Mg, AsCaCO.sub.3              7.61        6.55        5.69     Mn       <0.00100    <0.00100    <0.00100     Mo, AsMoO.sub.4              3.22        2.40        2.52     Ni       1.70        0.300       0.610     Se       2.00        1.00        1.00     Ag       0.380       0.07000     0.05000     Sr       1.90        1.56        1.30     Ti       1.60        0.200       0.560     V        1.67        0.490       0.910     Zn       1.66        0.270       0.680     Tl       2.00        1.00        1.00     ______________________________________              Composition 5                          Composition 5                                      Composition 5     ______________________________________     Al       1.40        0.900       1.70     Sb       <0.05000    <0.05000    <0.05000     As       1.00        0.700       2.00     Cd       0.920       0.260       1.30     Ca, AsCaCO.sub.3              0.110       0.160       0.120     Cr, AsCrO.sub.4              2.36        0.640       3.33     Co       1.08        0.310       1.25     Cu       1.24        0.560       1.58     Fe       0.01000     0.03000     <0.00300     Pb       1.10        0.300       1.60     Mg, AsCaCO.sub.3              6.33        6.52        6.74     Mn       <0.00100    <0.00100    <0.00100     Mo, AsMoO.sub.4              2.82        2.93        3.08     Ni       1.20        0.340       1.60     Se       2.00        2.00        1.00     Ag       0.300       0.08000     0.03000     Sr       1.59        1.56        1.69     Ti       1.10        0.300       1.55     V        1.24        0.700       1.68     Zn       1.13        0.350       1.63     Zr       2.00        1.00        2.00     ______________________________________              Composition 6                          Composition 6                                      Composition 6     ______________________________________     Al       2.00        0.900       1.60     Sb       <0.05000    <0.05000    <0.05000     As       2.00        0.700       1.00     Cd       1.56        0.220       1.07     Ca, AsCaCO.sub.3              0.250       0.09000     0.250     Cr, AsCrO.sub.4              3.95        0.560       2.74     Co       1.82        0.270       1.12     Cu       1.90        0.460       1.05     Fe       <0.00300    0.01000     <0.00300     Pb       1.90        0.300       1.30     Mg, AsCaCO.sub.3              7.95        6.16        6.43     Mn       <0.00100    <0.00100    <0.00100     Mo, AsMoO.sub.4              3.37        2.80        2.96     Ni       1.90        0.310       1.30     Se       2.00        2.00        1.00     Ag       0.420       0.08000     0.08000     Sr       2.00        1.55        1.60     Ti       1.80        0.250       1.25     V        1.89        0.640       1.49     Zn       1.88        0.330       1.35     Tl       2.10        1.00        2.00     ______________________________________              E-2863      E-2863      E-2863     ______________________________________     Al       1.00        0.900       1.50     Sb       <0.05000    <0.05000    <0.05000     As       0.800       0.800       1.00     Cd       0.460       0.280       1.06     Ca, AsCaCO.sub.3              0.140       0.05000     0.130     Cr, AsCrO.sub.4              1.20        0.690       2.65     Co       0.550       0.340       1.17     Cu       0.950       0.550       1.21     Fe       0.00400     <0.00300    <0.00300     Pb       0.550       0.300       1.30     Mg, AsCaCO.sub.3              6.92        6.43        6.61     Mn       <0.00100    <0.00100    <0.00100     Mo, AsMoO.sub.4              2.67        2.81        2.99     Ni       0.590       0.390       1.30     Se       1.00        1.00        0.100     Ag       0.200       0.100       0.100     Sr       1.67        1.39        1.55     Ti       0.540       0.320       1.23     V        0.740       0.750       1.52     Zn       0.590       0.390       1.32     Tl       2.00        0.900       1.00     ______________________________________

                  TABLE IVB     ______________________________________     Synthetic Wastewater - Filtered Supernatant Analysis            2 ppm     20 ppm      100 ppm     ______________________________________              DMDTC       DMDTC       DMDTC     ______________________________________     Sample 1     Al       0.600       0.400       0.500     Sb       2.00        1.00        1.00     As       0.562       0.233       0.342     Cd       0.490       0.03000     0.01000     Ca, AsCaCO.sub.3              6.37        6.01        6.30     Cr, AsCrO.sub.4              1.00        0.100       0.310     Co       0.670       0.160       0.100     Cu       0.640       0.04000     0.04000     Fe       0.540       0.05000     0.150     Pb       0.580       0.200       0.06000     Mg, AsCaCO.sub.3              7.45        7.39        7.25     Mn       1.08        0.510       0.440     Mo, AsMoO.sub.4              3.02        2.95        2.91     Ni       0.720       0.07000     0.05000     Se       1.30        1.16        <0.05000     Ag       0.08000     0.00800     0.01000     Sr       1.55        1.43        1.28     Ti       0.460       0.04000     0.110     V        0.720       0.460       0.600     Zn       0.530       0.08000     0.300     Zr       0.660       0.360       0.380     ______________________________________              Composition 1                          Composition 1                                      Composition 1     ______________________________________     Al       0.400       0.200       <0.05000     Sb       1.00        1.00        0.177     As       0.397       0.195       <0.05000     Cd       0.370       0.04000     <0.00500     Ca, AsCaCO.sub.3              4.36        5.08        0.557     Cr, AsCrO.sub.4              0.760       0.06000     0.01300     Co       0.430       0.07000     0.00400     Cu       0.470       0.05000     <0.00300     Fe       0.420       0.03000     0.00400     Pb       0.450       0.100       <0.02000     Mg, AsCaCO.sub.3              5.02        6.73        0.837     Mn       0.660       0.390       0.01500     Mo, AsMoO.sub.4              2.00        2.68        0.347     Ni       0.450       0.100       <0.01000     Se       0.764       1.10        0.136     Ag       0.03000     <0.00500    <0.00500     Sr       1.01        1.41        0.132     Ti       0.370       0.03000     0.00500     V        0.490       0.370       0.06500     Zn       0.390       0.06000     0.00700     Zr       0.540       0.300       0.03700     ______________________________________              Composition 2                          Composition 2                                      Composition 2     ______________________________________     Al       0.200       0.200       0.400     Sb       1.00        1.00        1.00     As       0.263       0.214       0.381     Cd       0.170       0.04000     <0.00500     Ca, AsCaCO.sub.3              6.24        5.65        4.45     Cr, AsCrO.sub.4              0.210       0.06000     0.05000     Co       0.320       0.09000     0.02000     Cu       0.370       0.06000     0.02000     Fe       0.110       0.03000     0.02000     Pb       0.200       0.100       <0.02000     Mg, AsCaCO.sub.3              7.75        7.44        6.32     Mn       0.850       0.450       0.09000     Mo, AsMoO.sub.4              2.89        2.90        2.92     Ni       0.340       0.200       0.01000     Se       1.13        1.17        1.00     Ag       0.01000     <0.00500    <0.00500     Sr       1.58        1.49        1.06     Ti       0.09000     0.02000     0.01000     V        0.410       0.370       0.590     Zn       0.160       0.07000     0.06000     Zr       0.360       0.220       0.260     ______________________________________              Composition 3                          Composition 3                                      Composition 3     ______________________________________     Sample 2     Sb       <0.05000    <0.05000    <0.05000     As       0.300       0.300       0.700     Cd       0.01000     0.0800      <0.00500     Ca, AsCaCO.sub.3              0.190       0.120       0.140     Cr, AsCrO.sub.4              0.02000     0.01000     0.02000     Co       0.02000     0.03000     0.01000     Cu       0.310       0.05000     0.04000     Fe       <0.00300    <0.00300    <0.00300     Pb       <0.02000    <0.02000    0.02000     Mg, AsCaCO.sub.3              5.84        5.71        5.14     Mn       0.02000     0.02000     0.02000     Mo, AsMoO.sub.4              2.19        2.19        2.82     Ni       0.02000     0.05000     <0.01000     Se       1.00        1.00        1.00     Ag       0.01000     0.00600     0.00600     Sr       1.41        1.34        1.06     Sn       <0.01000    <0.01000    <0.01000     Ti       0.00300     <0.00200    <0.00300     V        0.240       0.280       0.750     Zn       0.05000     0.05000     0.07000     Tl       1.00        1.00        0.300     ______________________________________              Composition 4                          Composition 4                                      Composition 4     ______________________________________     Sb       <0.05000    <0.05000    <0.05000     As       0.400       0.400       0.600     Cd       0.04000     0.02000     <0.00500     Ca, AsCaCO.sub.3              0.180       0.170       0.130     Cr, AsCrO.sub.4              0.0800      0.03000     0.02000     Co       0.03000     0.03000     0.02000     Cu       0.370       0.160       0.02000     Fe       <0.00300    <0.00300    <0.00300     Pb       0.03000     <0.02000    <0.02000     Mg, AsCaCO.sub.3              6.41        6.01        4.79     Mn       0.02000     0.02000     0.02000     Mo, AsMoO.sub.4              2.66        2.46        2.51     Ni       0.03000     0.05000     <0.01000     Se       1.00        1.00        1.00     Ag       0.01000     0.00600     <0.00500     Sr       1.54        1.41        1.02     Sn       <0.01000    <0.01000    <0.01000     Ti       0.03000     0.00800     <0.00200     V        0.310       0.310       0.540     Zn       0.06000     0.05000     0.06000     Tl       1.00        1.00        0.400     ______________________________________              Composition 5                          Composition 5                                      Composition 5     ______________________________________     Sb       <0.05000    <0.05000    <0.05000     As       0.500       0.500       0.800     Cd       0.01000     0.02000     <0.00500     Ca, AsCaCO.sub.3              0.170       0.340       0.110     Cr, AsCrO.sub.4              0.02000     0.02000     0.05000     Co       0.02000     0.05000     0.01000     Cu       0.350       0.100       0.00900     Fe       <0.00300    <0.00300    <0.00300     Pb       <0.02000    <0.02000    <0.02000     Mg, AsCaCO.sub.3              5.83        5.71        4.04     Mn       0.02000     0.02000     0.02000     Mo, AsMoO.sub.4              2.85        2.87        2.68     Ni       0.0100      0.04000     <0.01000     Se       1.00        1.00        1.00     Ag       0.01000     0.00900     <0.00500     Sr       1.48        1.44        1.06     Sn       <0.01000    <0.01000    <0.01000     Ti       0.00400     0.00400     <0.00200     V        0.42        0.460       0.760     Zn       0.05000     0.05000     0.03000     Tl       1.00        1.00        0.700     ______________________________________              Composition 6                          Composition 6                                      Composition 6     ______________________________________                                      test error     Sb       <0.05000    <0.05000    *     As       0.400       0.400       *     Cd       0.02000     0.01000     *     Ca, AsCaCO.sub.3              0.170       0.160       *     Cr, AsCrO.sub.4              0.01000     0.02000     *     Co       0.03000     0.04000     *     Cu       0.320       0.140       *     Fe       <0.00300    <0.00300    *     Pb       <0.02000    <0.02000    *     Mg, AsCaCO.sub.3              5.55        5.40        *     Mn       0.02000     0.02000     *     Mo, AsMoO.sub.4              2.57        2.65        *     Ni       0.02000     0.03000     *     Se       1.00        1.00        *     Ag       0.00700     0.00600     *     Sr       1.41        1.30        *     Sn       <0.01000    <0.01000    *     Ti       <0.00200    <0.00200    *     V        0.300       0.400       *     Zn       0.04000     0.04000     *     Tl       1.00        1.00        *     ______________________________________              E-2863      E-2863      E-2863     ______________________________________     Al       0.600       0.600       0.700     Sb       <0.05000    <0.05000    <0.05000     As       0.300       0.500       0.700     Cd       0.02000     <0.00500    <0.00500     Ca, AsCaCO.sub.3              0.420       1.12        1.37     Cr, AsCrO.sub.4              0.02000     0.02000     0.02000     Co       0.02000     0.02000     0.01000     Cu       0.270       0.00900     0.02000     Fe       <0.00300    <0.00300    <0.00300     Pb       <0.02000    <0.02000    <0.02000     Mg, AsCaCO.sub.3              5.90        5.53        4.80     Mn       <0.00100    <0.00100    <0.00100     Mo, AsMoO.sub.4              2.33        2.51        2.79     Ni       0.03000     0.04000     0.05000     Se       1.00        1.00        0.100     Ag       <0.00500    <0.00500    <0.00500     Sr       1.38        1.09        0.840     Sn       <0.01000    <0.01000    <0.01000     Ti       <0.00200    0.00400     <0.00200     V        0.260       0.470       0.860     Zn       0.04000     0.05000     0.06000     Tl       1.00        0.200       <0.05000     ______________________________________

Results of the analysis for Al in Sample 2, filtered supernatant, treated with compositions 3-6 were not reported due to a test error which occurred during the analysis for that element.

The data in Tables IVA and IVB show that metal ions such as Cu, Pb, and Zn, and non-metal ions such as As, are removed by the water soluble polymeric dithiocarbamic acid salts described in this invention. Also shown is that the invention polymeric dithiocarbamic acid salts do not remove significant amounts of non-toxic metals Ca and Mg. The selectivity of the polymers of this invention for non-alkaline earth and non-alkali metal ions is advantageous because the presence of IA and IIA ions will not increase the dosage needed to precipitate the toxic transition and post transition metals. For most of the treatments, the floc formed by the polymers of this invention were large and settled faster than those formed with DMDTC and E-2863. Tests run on unfiltered and filtered sample 1 treated with 5, 10 and 50 ppm of DMDTC, composition 1 and composition 2 and run on unfiltered and filtered sample 2 treated with 5, 10 and 50 ppm of composition 3, composition 4, composition 5, composition 6 and E-2863 produced results similar to those disclosed in Tables IVA and IVB.

EXAMPLE 4

The compositions set forth in Table II were evaluated in two samples of a wastewater from a hazardous waste incinerator facility containing a variety of metal and non-metal ions with varying dosages utilizing the procedure described in Example 3. The initial water analyses for the two samples at pH 9.0 are shown in Table VA.

                  TABLE VA     ______________________________________     Hazardous Waste Incinerator Water Analysis            Sample 1 Sample 2           Sample 1                                               Sample 2     Metal  (ppm)    (ppm)       Metal  (ppm)  (ppm)     ______________________________________     Al     0.17     2.00        Mg as  10.30  7.90                                 CaCO.sub.3     Sb     0.14     0.60        Mn     0.19   0.08     As     <0.05    0.36        Mo as  0.30   0.92                                 MoO.sub.4     Ba     0.01     0.01        Ni     0.04   0.03     B      1.30     2.50        Se     <0.05  0.06     Cd     <0.01    0.01        Ag     0.01   0.03     Ca as  54.1     5.96        Sr     0.15   0.02     CaCO.sub.3                  Hg     0.019  0     Cr, as <0.01    0.04        Sn     <0.01  0.20     CrO.sub.4     Co     0.01     0.02        Ti     0.01   0.10     Cu     0.03     0.08        V      <0.01  0.03     Fe     5.36     13.50       Zn     0.16   0.31     Pb     <0.02    0.05        Zr     0.17   0.04     ______________________________________

where < indicates the metal concentration was below the ICP-AES detection limit.

The unfiltered supernatant was analyzed for metal content using ICP-AES. The results are shown in Table VB.

                  TABLE VB     ______________________________________     Hazardous Waste Incinerator Scrubber Water     Sample 1              Average              Untreated                     Supernatant Concentration     Treat-     Concen-  in ppm     ment       tration             Composition     Metal          (ppm)     (ppm)    DMDTC    1     2     ______________________________________     B    0.0       1.30     1.30     1.30  1.30          2.5                1.15     1.30  1.16          5.0                1.25     1.10  1.11          10.0               1.32     1.20  1.20          15.0               1.13     1.20  1.19          20.0               1.14     1.10  1.11          25.0               1.21     1.20  1.23     Ca   0.0       54.10    54.10    54.10 54.10          2.5                47.10    55.20 48.30          5.0                52.10    46.40 46.20          10.0               54.50    50.50 50.70          15.0               46.60    50.00 48.80          20.0               46.10    46.80 45.90          25.0               50.40    48.80 50.90     Cu   0.0       0.03     0.03     0.03  0.03          2.5                0.03     <0.01 <0.01          5.0                0.01     <0.01 <0.01          10.0               <0.01    <0.01 <0.01          15.0               <0.01    <0.01 <0.01          20.0               <0.01    0.01  <0.01          25.0               <0.01    <0.01 <0.01     Fe   0.0       5.36     5.36     5.36  5.36          2.5                5.65     3.11  2.25          5.0                4.66     2.43  2.48          10.0               5.25     3.85  3.26          15.0               5.20     4.03  3.09          20.0               5.92     4.38  2.70          25.0               5.45     4.66  4.14     Mg   0.0       10.30    10.30    10.30 10.30          2.5                9.16     10.50 9.35          5.0                9.94     8.87  8.96          10.0               10.40    9.59  9.68          15.0               8.98     9.49  9.41          20.0               9.00     8.93  8.87          25.0               9.67     9.34  9.73     Mn   0.0       0.19     0.19     0.19  0.19          2.5                0.18     0.24  0.21          5.0                0.19     0.19  0.20          10.0               0.19     0.22  0.22          15.0               0.17     0.21  0.21          20.0               0.17     0.20  0.20          25.0               0.18     0.21  0.20     Mo   0.0       0.30     0.30     0.30  0.30          2.5                0.21     0.29  0.30          5.0                0.29     0.27  0.26          10.0               0.28     0.22  0.24          15.0               0.23     0.20  0.25          20.0               0.26     0.21  0.22          25.0               0.29     0.23  0.25     Sb   0.0       0.14     0.14     0.14  0.14          2.5                0.11     0.20  0.15          5.0                0.15     0.10  0.10          10.0               0.12     0.10  0.13          15.0               0.11     0.20  0.14          20.0               0.13     0.20  0.12          25.0               0.13     0.10  0.14     Sr   0.0       0.15     0.15     0.15  0.15          2.5                0.13     0.15  0.13          5.0                0.14     0.13  0.13          10.0               0.15     0.14  0.14          15.0               0.13     0.14  0.13          20.0               0.13     0.13  0.12          25.0               0.14     0.13  0.14     Zn   0.0       0.16     0.16     0.16  0.16          2.5                0.15     0.12  0.12          5.0                0.16     0.09  0.11          10.0               0.15     0.07  0.07          15.0               0.19     0.07  0.06          20.0               0.17     0.07  0.06          25.0               0.16     0.06  0.06     Zr   0.0       0.17     0.17     0.17  0.17          2.5                <0.01    <0.01 <0.01          5.0                0.02     <0.01 <0.01          10.0               <0.01    <0.01 <0.01          15.0               <0.01    <0.01 <0.01          20.0               0.01     <0.01 <0.01          25.0               0.01     <0.01 <0.01     Hg   0.0       0.019    0.019    0.019 0.019          2.5                0.011    0.004 <0.001          5.0                0.004    <0.001                                            <0.001          10.0               0.006    <0.001                                            0.005          15.0               0.006    <0.001                                            <0.001          20.0               0.004    0.003 0.001          25.0               0.003    <0.001                                            0.001     ______________________________________     Sample 2     Treat-    Average     ment      Untreated     Concen-   Concen-     tration   tration            Composition     Metal          (ppm)    (ppm)    DMDTC   3    4    5    6     ______________________________________     Ag    0       0.03     0.03    0.03 0.03 0.03 0.03           5                0.01    0.01 <0.01                                              0.01 0.01          10                0.02    0.01 0.01 0.01 <0.01          20                <0.01   <0.01                                         <0.01                                              0.01 <0.01          50                0.02    <0.01                                         <0.01                                              0.01 <0.01     Al    0       2.00     2.00    2.00 2.00 2.00 2.00           5                2.00    2.10 2.10 2.10 1.90          10                2.00    2.00 2.00 2.00 1.90          20                2.00    2.00 2.00 1.90 1.90          50                2.00    2.00 1.90 1.90 1.90     As    0       0.36     0.36    0.36 0.36 0.36 0.36           5                0.35    0.34 0.32 0.34 0.32          10                0.32    0.34 0.35 0.31 0.30          20                0.32    0.32 0.31 0.31 0.30          50                0.30    0.33 0.30 0.33 0.33     B     0       2.50     2.50    2.50 2.50 2.50 2.50           5                2.40    2.50 2.60 2.50 2.40          10                2.50    2.50 2.50 2.50 2.40          20                2.50    2.50 2.50 2.40 2.40          50                2.50    2.50 2.40 2.40 2.40     Ca    0       5.96     5.96    5.96 5.96 5.96 5.96           5                5.68    6.02 5.85 6.05 5.63          10                5.78    5.71 5.65 5.76 5.45          20                5.69    5.70 5.86 5.55 5.48          50                5.77    5.72 5.46 5.54 5.49     Cu    0       0.08     0.08    0.08 0.08 0.08 0.08           5                0.04    0.17 0.05 0.06 0.04          10                0.49    0.23 0.03 0.03 0.01          20                0.03    0.22 0.02 0.02 <0.01          50                0.23    0.25 <0.01                                              0.02 <0.01     Fe    0       13.50    13.50   13.50                                         13.50                                              13.50                                                   13.50           5                10.90   11.70                                         12.40                                              12.00                                                   11.00          10                11.70   11.00                                         10.90                                              11.00                                                   10.10          20                11.10   12.10                                         11.00                                              11.40                                                   9.95          50                11.80   12.20                                         10.10                                              11.40                                                   10.60     Mg    0       7.90     7.90    7.90 7.90 7.90 7.90           5                7.72    8.15 8.16 8.02 7.57          10                7.84    8.01 7.95 7.74 7.45          20                7.72    7.96 8.12 7.59 7.57          50                7.76    7.93 7.72 7.53 7.58     Mn    0       0.08     0.08    0.08 0.08 0.08 0.08           5                0.08    0.10 0.09 0.09 0.08          10                0.10    0.09 0.09 0.08 0.07          20                0.08    0.10 0.08 0.08 0.07          50                0.10    0.10 0.07 0.07 0.08     Mo    0       0.92     0.92    0.92 0.92 0.92 0.92           5                0.84    0.88 0.87 0.87 0.81          10                0.86    0.79 0.80 0.79 0.74          20                0.84    0.57 0.73 0.62 0.68          50                0.82    0.26 0.35 0.32 0.42     Sb    0       0.60     0.60    0.60 0.60 0.60 0.60           5                0.40    0.40 0.40 0.40 0.30          10                0.30    0.40 0.30 0.40 0.30          20                0.30    0.30 0.40 0.30 0.30          50                0.30    0.30 0.30 0.30 0.60     Sn    0       0.20     0.20    0.20 0.20 0.20 0.20           5                0.10    0.20 0.20 0.10 0.10          10                0.10    0.20 0.20 0.20 0.10          20                0.10    0.20 0.20 0.20 0.20          50                0.10    0.20 0.20 0.20 0.10     Ti    0       0.10     0.10    0.10 0.10 0.10 0.10           5                0.06    0.08 0.05 0.07 0.06          10                0.05    0.05 0.05 0.05 0.04          20                0.05    0.05 0.05 0.06 0.03          50                0.05    0.04 0.03 0.05 0.02     V     0       0.03     0.03    0.03 0.03 0.03 0.03           5                0.02    0.04 0.02 0.04 0.03          10                0.02    0.02 0.02 0.02 0.02          20                0.02    0.01 0.02 0.02 0.01          50                0.02    <0.01                                         <0.01                                              0.01 <0.01     Zn    0       0.31     0.31    0.31 0.31 0.31 0.31           5                0.27    0.29 0.29 0.30 0.28          10                0.28    0.16 0.17 0.15 0.14          20                0.28    0.11 0.12 0.11 0.09          50                0.28    0.07 0.06 0.08 0.05     Zr    0       0.04     0.04    0.04 0.04 0.04 0.04           5                <0.01   0.02 <0.01                                              0.02 <0.01          10                <0.01   <0.01                                         <0.01                                              <0.01                                                   <0.01          20                <0.01   <0.01                                         <0.01                                              <0.01                                                   <0.01          50                <0.01   <0.01                                         <0.01                                              <0.01                                                   <0.01     ______________________________________

Supernatant metal concentrations shown greater than the untreated aqueous solution metal content were the result of experimental anomalies. Results for metals present in samples 1 and 2 at concentrations less than twice the ICP-AES analysis detection limit are not reported herein.

EXAMPLE 5

The examples set forth in Table II were evaluated in a sample of cooling tower blowdown containing metal ions and typical cooling tower treatment chemicals. The tests were conducted utilizing the procedure described in Example 3, except 150 ppm of alum and 2 ppm of cationic polymer were added in addition to the metal precipitant to remove organic species from this wastewater, and the pH of the wastewater was 8.5. The unfiltered metal removal efficiencies of the compounds of the present invention compared to CYTEC E-2863 for Cu and Zn are shown in FIGS. 1 and 2.

These figures show that the compounds of the present invention are effective in precipitating metals from cooling tower blowdown and may be used in combination with coagulants and flocculants to remove contaminants from an aqueous solution.

EXAMPLE 6

Screen bioassays for aquatic toxicity were conducted for Composition 1 compared to commercially available DMDTC and CYTEC E-2863. The results of this testing are shown in Table VI.

                  TABLE VI     ______________________________________     Aquatic Toxicity Study     Cumulative % Mortality                 Fathead            ppm    Minnow        Daphnia magna     Compound Actives  24 hr.  48 hr.  24 hr.                                             48 hr.     ______________________________________     Composition 1              0.25      0      0       0      0              2.50      0      0       0      0              25.0      0      0       0      0              125.0     95     95      100   100              250.0    100     100     100   100     DMDTC    0.04     100     --      0      85              0.20     --      --      50    100              0.40     100     --      100   100              2.0      --      --      100   100              4.0      100     --      100   100              20.0     100     --      --    --              40.0     100     --      --    --     E-2836   0.029     0       0.sup.1                                       0      0              0.29      0       0.sup.1                                       0      0              2.90      40     40.sup.1                                       0      0              7.25     --      --      80     95              14.5     100     100.sup.1                                       100   100              29.0     100     100.sup.1                                       --    --     ______________________________________      .sup.1 96 hour test

Table VI shows that composition 1 was less toxic to the species in the study than DMDTC or E-2836.

Thus, the branched, polydithiocarbamates of the present invention form heavy, fast-settling floc which do not require filtration or addition of a coagulant/flocculant and which are not limited by water solubility or their degree of functionalization with carbon disulfide.

While this invention has been described with respect to particular embodiments thereof, it is apparent that numerous other forms and modifications of the invention will be obvious to those skilled in the art. The appended claims and this invention generally should be construed to cover all such obvious forms and modifications which are within the true spirit and scope of the present invention. 

We claim:
 1. A water soluble, branched, polymeric composition for precipitating contaminants from an aqueous solution comprising a polydithiocarbamic acid salt having the formula: ##STR5## wherein R¹ is independently an organic radical or: ##STR6## wherein R⁴ is independently an organic radical and x=1 to 5; at least a percentage of R² is --CS₂ R⁵ and the remainder is --H; R⁵ is independently H or a cation; R³ is N or a substituted organic radical; Z is independently N--R², O or S; the sum of n is an integer greater than 10; and m is an integer greater than 2, said polydithiocarbamic acid salt being formed by reaction of epihalohydrin with a mixture of an amine compound consisting of at least two primary amine functional groups and an amine compound consisting of three primary amine functional groups, then functionalization with carbon disulfide.
 2. The composition of claim 1 wherein R¹ is an ethylene radical, the sum of n is greater than 10, m is 3, R³ is N, more than 50% of R² are --CS₂ R⁵, R⁵ is an alkali metal and Z is N--R².
 3. The composition of claim 1 wherein R¹ is an ethylene radical, the sum of n is greater than 25, m is 3, R³ is N, more than 50% of R² are --CS₂ R⁵, R⁵ is an akali metal and Z is N--R².
 4. The composition of claim 1 wherein R¹ is an ethylene radical, the sum of n is greater than 25, m is 3, R³ is N, more than 79% of R² are --CS₂ R⁵, R⁵ is an alkali metal and Z is N--R².
 5. The composition of claim 1 diluted to a concentration of from about 0.1 ppm to about 10,000 ppm of said composition in an aqueous solution.
 6. The composition of claim 1 diluted to a concentration of from about 0.1 ppm to about 1,000 ppm of said composition in an aqueous solution.
 7. The composition of claim 1 diluted to a concentration of from about 0.1 ppm to about 500 ppm of said composition in an aqueous solution. 